Centre Number Surname Candidate Number For Examiner s Use Other Names Candidate Signature Examiner s Initials Question Mark General Certificate of Secondary Education Higher Tier January 2012 1 2 Physics PHY3H 3 4 Unit Physics P3 Written Paper Monday 30 January 2012 1.30 pm to 2.15 pm H 5 6 TOTAL For this paper you must have: a ruler. You may use a calculator. Time allowed 45 minutes Instructions Use black ink or black ball-point pen. Fill in the es at the top of this page. Answer all questions. You must answer the questions in the spaces provided. around each page or on blank pages. Do all rough work in this book. Cross through any work you do not want to be marked. Information The marks for questions are shown in brackets. The maximum mark for this paper is 45. You are expected to use a calculator where appropriate. You are reminded of the need for good English and clear presentation in your answers. Advice In all calculations, show clearly how you work out your answer. (Jan12PHY3H01) G/K74615 6/6/6/6 PHY3H
2 Answer all questions in the spaces provided. 1 The diagram shows the apparatus used by a student to investigate a transformer. Power supply 2 V fixed Primary coil Secondary coil 4 6 8 2 10 0 12 d.c. a.c. 2 V Iron C cores 0.10 V 1 (a) The transformer made by the student would not have worked if the core had been made from aluminium and not iron. Why? 1 (b) The student made changes to the number of turns used to make the secondary coil. He then measured the potential difference across the secondary coil after each change. The graph shows the student s results. 5 Potential difference across the secondary coil in volts 4 3 2 1 0 0 10 20 30 40 50 Number of turns on the secondary coil (02)
3 1 (b) (i) What range of values was used for the number of turns on the secondary coil? From... to... 1 (b) (ii) When he drew the line of best fit, the student ignored one of the data points. Why? 1 (b) (iii) What is the minimum number of turns needed on the secondary coil for the transformer to act as a step-up transformer?... Give a reason for your answer. (2 marks) 1 (c) A radio can be used with a 9 V battery or it can be plugged into the 230 V mains electricity supply using an adapter. The mains adapter contains a transformer. Why must the mains adapter contain a transformer? 6 Turn over (03)
4 There are no questions printed on this page DO NOT WRITE ON THIS PAGE ANSWER IN THE SPACES PROVIDED (04)
5 2 (a) The diagram shows the orbit of a planet in the Solar System. The orbit is shaped like a slightly squashed circle. Planet Sun Not drawn to scale 2 (a) (i) What word is used to describe the shape of the planet s orbit? 2 (a) (ii) A planet is kept in its orbit by a centripetal force. What provides the centripetal force on a planet? 2 (a) (iii) On the diagram above, draw an arrow to show the direction of the centripetal force acting on the planet. 2 (a) (iv) Name two factors that affect the size of the centripetal force acting on the planet. 1... 2... (2 marks) Question 2 continues on the next page Turn over (05)
6 2 (b) In 1772, the astronomer J. Bode developed a law to calculate the distance a planet is from the Sun. Most scientists at the time did not think that the law was very important. The table gives the distances calculated using Bode s Law and the actual distances from the Sun for the six planets known to exist in 1772. Planet Distance calculated using Bode s Law in AU Actual distance in AU Mercury 0.4 0.4 Venus 0.7 0.7 Earth 1.0 1.0 Mars 1.6 1.5 2.8 Jupiter 5.2 5.2 Saturn 10.0 9.5 (1 AU = distance between the Earth and the Sun) 2 (b) (i) Considering only these six planets, do you think that Bode s Law gives accurate values for the distances the planets are from the Sun? Draw a ring around your answer. Yes No Give a reason for your answer. (06)
7 2 (b) (ii) Bode s Law predicts the existence of a planet between Mars and Jupiter. In 1801, Ceres, the largest object between Mars and Jupiter, was discovered orbiting the Sun at a distance of 2.8 AU. Ceres is no longer considered to be a planet. Explain how the discovery of Ceres in 1801 may have changed scientists opinions of Bode s Law..... (2 marks) 2 (b) (iii) Since 1801, more planets and other objects have been discovered orbiting the Sun. These discoveries have led some scientists to develop new versions of Bode s Law. Suggest why scientists may decide that a new version of Bode s Law is needed. 9 Turn over for the next question Turn over (07)
8 There are no questions printed on this page DO NOT WRITE ON THIS PAGE ANSWER IN THE SPACES PROVIDED (08)
9 3 The diagram shows an instrument designed to detect earthquakes. An earthquake causes the ground to vibrate up and down. This causes the bar magnet to move up and down relative to the coil. Metal arm Spring N Bar magnet Heavy metal base S Coil Data logger Computer 3 (a) Explain why the ground vibrations cause an electric current to be induced in the coil. The first sentence of the explanation has been done for you. The vibrations from the ground cause the bar magnet to move up and down relative to the coil. (3 marks) Question 3 continues on the next page Turn over (09)
10 3 (b) The diagram shows the data recorded by the computer following an earthquake. Potential difference X Time Which one of these statements describes how the magnet is moving relative to the coil when the reading, recorded by the computer at the point marked X, is zero? Put a tick ( ) in the next to your answer. It is moving upwards through the coil. It is moving downwards through the coil. It is not moving. Give the reason for your answer. (2 marks) (10)
11 3 (c) The instrument is not sensitive enough to detect the smaller vibrations caused by a heavy lorry driving close by. 3 (c) (i) What is meant by the sensitivity of an instrument? 3 (c) (ii) Suggest two changes to the design of the instrument, each of which would make it more sensitive to small vibrations. 1... 2... (2 marks) 8 Turn over for the next question Turn over (11)
12 4 (a) The diagram shows a converging lens being used as a magnifying glass. 4 (a) (i) On the diagram, use a ruler to draw two rays from the top of the object which show how and where the image is formed. Represent the image by an arrow drawn at the correct position. Object F F Eye (3 marks) 4 (a) (ii) Use the equation in the to calculate the magnification produced by the lens. magnification = image height object height Show clearly how you work out your answer. Magnification =... (2 marks) (12)
13 4 (b) A camera also uses a converging lens to form an image. Describe how the image formed by the lens in a camera is different from the image formed by a lens used as a magnifying glass. (2 marks) 7 Turn over for the next question Turn over (13)
14 5 (a) The diagram shows a microphone being used to detect the output from a loudspeaker. The oscilloscope trace shows the wave pattern produced by the loudspeaker. 0.0001 s Loudspeaker High frequency signal generator Microphone Oscilloscope 5 (a) (i) How many waves are produced by the loudspeaker in 0.0001 seconds?... 5 (a) (ii) How many waves are produced by the loudspeaker every second? Assume the input to the loudspeaker does not change. 5 (a) (iii) A person with normal hearing cannot hear the sound produced by the loudspeaker. Explain why. (2 marks) (14)
15 5 (b) The diagram shows how a very high frequency sound wave can be used to check for internal cracks in a large steel bolt. The oscilloscope trace shows that the bolt does have an internal crack. Transmitted pulse 1 cm represents 0.000005 s Wave transmitter and detector A B Steel bolt Bolt head High frequency signal generator Oscilloscope 5 (b) (i) Explain what happens to produce pulse A and pulse B. (2 marks) 5 (b) (ii) Use the information in the diagram and the equation in the to calculate the distance from the head of the bolt to the internal crack. distance = speed time Speed of sound through steel = 6000 m/s Show clearly how you work out your answer................... (3 marks) 9 Turn over (15)
16 6 The diagram shows a father and his two children sitting on a playground see-saw. The see-saw is not moving. Axis of rotation B Moment of father = 960 Nm Moment of girl = 360 Nm 1.6 m W 6 (a) What is the total clockwise moment of the two children about the axis of rotation? Explain the reason for your answer. (3 marks) 6 (b) (i) What is the clockwise moment of the boy, B, about the axis of rotation? Moment =... Nm (16)
17 6 (b) (ii) Use the information in the diagram and the equation in the to calculate the weight, W, of the boy, B. moment = force perpendicular distance from the line of action of the force to the axis of rotation Show clearly how you work out your answer. Weight of boy B =... N (2 marks) 6 END OF QUESTIONS (17)
18 There are no questions printed on this page DO NOT WRITE ON THIS PAGE ANSWER IN THE SPACES PROVIDED (18)
19 There are no questions printed on this page DO NOT WRITE ON THIS PAGE ANSWER IN THE SPACES PROVIDED (19)
20 There are no questions printed on this page DO NOT WRITE ON THIS PAGE ANSWER IN THE SPACES PROVIDED Copyright 2012 AQA and its licensors. All rights reserved. (20)